Multiple inspector voice inspection

ABSTRACT

Systems, methods, and devices of a voice-directed inspection system that supports multiple inspectors in the inspection of business assets are described. Inspection plans for large and complex business assets can involve several steps. It is advantageous to split large inspection plans into non-overlapping sections to allow multiple inspectors to perform concurrent inspections. Such sectionalizing is also useful in training new inspectors.

FIELD OF THE INVENTION

Embodiments of the present invention relate to systems, methods, and devices of a voice-directed inspection system that supports multiple inspectors in the inspection of business assets.

BACKGROUND

A company will typically perform regular inspections of its equipment and systems to ensure proper operability of those business assets for the overall health, compliance, and productivity of the company. For example, a trucking company may regularly perform inspections that are required for compliance with interstate commerce laws. A truck inspection may include the steps of checking the lights, braking system, steering system, emission system, and other equipment.

During an inspection, an inspector will typically check certain features of the various systems according to an inspection plan and then record information such as measured values, operability, and/or quality of the various components, etc. The process of recording the observations used to be very labor intensive, requiring the inspector to check boxes or write values on a paper inspection form or entering data in a computer.

Advances in technology, particularly in the area of speech recognition and mobile devices, have simplified many tasks in the workplace by permitting hands-free communication with a computer as a convenient alternative to communication via conventional peripheral input/output devices.

Systems now exist that allow the commands or instructions for an inspection plan to be communicated to the inspector by a speech synthesizer. These systems also permit the inspector to easily enter data about the inspection by voice using a speech recognizer.

Sometimes, however, the inspection plans can be very large. An inspection plan for a large complex asset, such as a jet engine, may involve many steps. For these types of inspections, it is often necessary to have more than one inspector work together to complete the inspection in a reasonable amount of time.

Therefore, a need exists for a voice-directed inspection system that supports multiple inspectors in the inspection of business assets.

SUMMARY

Accordingly, one aspect of the present invention discloses a system, comprising: a first device comprising: a first communication interface; a first control system communicatively coupled to the first communication interface and comprising at least one first hardware processor and a first memory storing program codes operable to: send a first request for a first assignment for an asset to a third device; receive a first section of an inspection plan for the asset from the third device, wherein the first section of the inspection plan identifies first remaining inspection items for the asset; provide first audible commands for completing the first remaining inspection items; receive first audible updates on the completion of the first remaining inspection items; and send the first updates on the completion of the first remaining inspection items to the third device; and a second device comprising: a second communication interface; a second control system communicatively coupled to the second communication interface and comprising at least one second hardware processor and a second memory storing program codes operable to: send a second request for a second assignment for the asset to a third device; receive a second section of the inspection plan for the asset from the third device, wherein the second section of the inspection plan identifies second remaining inspection items for the asset; provide second audible commands for completing the second remaining inspection items; receive second audible updates on the completion of the second remaining inspection items; and send the second updates on the completion of the second remaining inspection items to the third device; and a third device comprising: a third communication interface; a third control system communicatively coupled to the third communication interface and comprising at least one third hardware processor and a third memory storing program codes operable to: receive the inspection plan for the asset from the fourth device; receive the first request for the first assignment for the asset from the first device; receive the second request for the second assignment for the asset from the second device; determine if there are multiple unfinished sections of the inspection plan for the asset; if there are multiple unfinished sections of the inspection plan for the asset, send the first section of the inspection plan for the asset to the first device and send the second section of the inspection plan for the asset to the second device; receive the first updates on the completion of the first remaining inspection items from the first device and receive the second updates on the completion of the second remaining inspection items from the second device; and send the first and second updates to the fourth device; and a fourth device comprising: a fourth communication interface; a fourth control system communicatively coupled to the fourth communication interface and comprising at least one fourth hardware processor and a fourth memory storing program codes operable to: send the inspection plan for the asset to the third device; and receive the first and second updates from the third device.

In other exemplary embodiments, the first device comprises a first headset and a first portable computer device, the second device comprises a second headset and a second portable computer device, the third device comprises a site computer, the fourth device comprises a host computer.

In further exemplary embodiments, the request for an assignment comprises a request for either a specific or for any unfinished section of the inspection plan for the asset.

In still further exemplary embodiments, in determining if there are multiple unfinished sections of the inspection plan for the asset, the third device is further operable to: identify unfinished sections of the inspection plan; and determine if the unfinished sections of the plan do not interfere with one another.

In other exemplary embodiments, in determining if the unfinished sections of the plan do not interfere with one another, the third device is further operable to: determine that the unfinished sections of the plan pertain to physically distinct parts of the asset.

In more embodiments, the third device is further operable to: associate more than one identifier to the inspection plan for the asset.

In additional embodiments, the first updates on the completion of the first remaining inspection items are sent to the third device by the first device as each of the first remaining inspection items is completed and wherein the second updates on the completion of the second remaining inspection items are sent to the third device by the second device as each of the second remaining inspection items is completed

A further aspect of the present invention describes a method comprising: receiving an inspection plan for an asset from a host computer; receiving a first request for a first assignment for the asset from a first inspection assistance device; receiving a second request for a second assignment for the asset from a second inspection assistance device; determining if there are multiple unfinished sections of the inspection plan for the asset; if there are multiple unfinished sections of the inspection plan for the asset, sending the first section of the inspection plan for the asset to the first inspection assistance device and sending the second section of the inspection plan for the asset to the second inspection assistance device; receive first updates on the completion of the first section of the inspection plan from the first inspection assistance device and receive second updates on the completion of the second section of the inspection plan from the second inspection assistance device; and sending the first and second updates to the host computer.

And yet a further aspect of the present invention imparts a non-transient computer-readable medium containing program instructions for causing a computer to perform a method comprising: receiving an inspection plan for an asset from a host computer; receiving a first request for a first assignment for the asset from a first inspection assistance device; receiving a second request for a second assignment for the asset from a second inspection assistance device; determining if there are multiple unfinished sections of the inspection plan for the asset; if there are multiple unfinished sections of the inspection plan for the asset, sending the first section of the inspection plan for the asset to the first inspection assistance device and sending the second section of the inspection plan for the asset to the second inspection assistance device; receive first updates on the completion of the first section of the inspection plan from the first inspection assistance device and receive second updates on the completion of the second section of the inspection plan from the second inspection assistance device; and sending the first and second updates to the host computer.

The foregoing illustrative summary, as well as other exemplary objectives and/or advantages of the invention, and the manner in which the same are accomplished, are further explained within the following detailed description and its accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a diagram of the voice-directed inspection system according to embodiments of the disclosed subject matter.

FIG. 2 is a block diagram of the hardware elements of a computing device according to embodiments of the disclosed subject matter.

FIG. 3 is a diagram of the hardware elements of an inspection assistance device according to embodiments of the disclosed subject matter.

FIG. 4 is a block diagram of an inspection plan editor according to embodiments of the disclosed subject matter.

FIGS. 5A and 5B are communication flow diagrams for the multiple inspector voice-directed inspection system according to embodiments of the disclosed subject matter.

FIG. 6 is a flow chart for an inspection assistance device according to embodiments of the disclosed subject matter.

FIG. 7 is a flow chart for a site computer according to embodiments of the disclosed subject matter.

DETAILED DESCRIPTION

Embodiments of the present invention relate to systems, methods, and devices of a voice-directed inspection system that supports multiple inspectors in the inspection of business assets.

FIG. 1 is a diagram of the voice-directed inspection system according to embodiments of the disclosed subject matter. As shown, the voice-directed inspection system 10 includes a host computer 12 and a plurality of site computers 14-1 through 14-N configured to communicate with the host computer 12 via a network 16. In some embodiments, the site computers 14 may also communicate with each other via the network 16.

Throughout the present disclosure, it should be noted that specific instances of components of the system shall be designated with an index, for example 14-1 indicating the first site computer and 14-N indicating the Nth site computer. When generically referring to a component, only the prefix will be used, for example the site computer 14 or the site computers 14.

Note that while the host computer 12 is illustrated as individual single computer, it may alternatively be distributed across multiple computers having the respective functionality of the single host computer 12 shown in FIG. 1. Similarly, note that while the site computers 14 are illustrated as individual single computers, they may alternatively be distributed across multiple computers having the respective functionality of the single site computer 14 shown in FIG. 1.

The network 16 may be any type of wide area network (WAN), such as the Internet, Local Area Network (LAN), or the like, or any combination thereof, and may include wired components, such as Ethernet, wireless components, such as LTE, Wi-Fi, Bluetooth™, or near field communication (NFC), or both wired and wireless components, collectively represented by the data links 26.

The host computer 12 may preferably be housed in a central office that services multiple inspection sites 18-1 through 18-N. The site computers 14 may be housed at a designated inspection sites 18 where inspections are performed. For example, the inspection site 18 may be a garage where vehicles are inspected or where other types of transportable objects can be brought. In other cases, the inspection site 18 may be the location of a fixed object being inspected, such as a home or building.

One or more of the site computers 14 may be configured as web servers. The voice-directed inspection system 10 may further include one or more additional servers (not shown), which may be housed at the central office, in a remote office, at a third party location, at one or more of the inspection sites 18, or at another suitable location.

Within the inspection site 18, the site computer 14 is configured to communicate with one or more inspection assistance devices 20-1 through 20-N. Each inspection assistance device 20 includes at least a portable computer device 22 and a headset 24. In some embodiments, the site computer 14 and inspection assistance devices 20 may communicate directly using a wireless protocol, such as Bluetooth™. In other embodiments, the site computer 14 and inspection assistance devices 20 may communicate with each other via a network 30. The network 30 may be any type of wide area network (WAN), such as the Internet, Local Area Network (LAN), or the like, or any combination thereof, and may include wired components, such as Ethernet, wireless components, such as LTE, Wi-Fi, Bluetooth™, or near field communication (NFC), or both wired and wireless components, collectively represented by the data links 28. The inspection site 18 also includes the business asset 32 being inspected.

FIG. 2 is a block diagram of the hardware elements of a computing device according to embodiments of the disclosed subject matter. More specifically, FIG. 2 is a block diagram of the hardware elements of a computing device 200 that may serve as the host computer 12 or site computer 14 or, in some embodiments, the portable computer device 22 of the inspection assistance device 20.

Computing device 200 may be implemented in any form of digital computer or mobile device. Digital computers may include, but are not limited to, laptops, desktops, workstations, fixed vehicle computers, vehicle mount computers, hazardous environment computers, rugged mobile computers, servers, blade servers, mainframes, other appropriate computers. Mobile devices may include, but are not limited to, cellular telephones, smartphones, personal digital assistants, tablets, pagers, two-way radios, netbooks, and other similar computing devices.

In general, as shown, the computing device 200 of FIG. 2 includes a processing system 210 that includes one or more processors 211, such as Central Processing Units (CPUs), Application Specific Integrated Circuits (ASICs), and/or Field Programmable Gate Arrays (FPGAs), a memory controller 212, memory 213, such as Random Access Memory (RAM), which may include software 214, and other components that are not shown for brevity, such as busses, etc. The processing system may also include storage 215, such as a hard drive or solid state drive.

Memory 213 and storage 215 may include one or more internally fixed storage units, removable storage units, and/or remotely accessible storage units, each including a tangible storage medium. The various storage units may include any combination of volatile memory and non-volatile memory. For example, volatile memory may comprise random access memory (RAM), dynamic RAM (DRAM), etc. Non-volatile memory may comprise read only memory (ROM), electrically erasable programmable ROM (EEPROM), flash memory, etc. The storage units may be configured to store any combination of information, data, instructions, software code, etc.

The processing system 210 also includes a peripherals interface 216 for communicating with other components of the computing device 200, which may include but are not limited to, radio frequency (RF) circuitry 252, such as Wi-Fi and/or cellular communications circuitry such as wireless Ethernet, Bluetooth™, and near field communication (NFC), audio circuitry 254 for the audio input component 253, such as a microphone, and audio output component 255, such as a speaker, one or more accelerometers 256, one or more other sensors 258, such as a location determination component such as a Global Positioning System (GPS) chip, and one or more external ports 260, which may be used for smart card readers or for wired connections such as wired Ethernet, USB, serial or I²C ports. The RF circuitry 252 and external ports 260 individually and collectively make up the communication interfaces for the computing device 200. Other sensors 258 may also include an NFC reader or additional NFC chips. The processing system 210 is also connected to a power system component 220 that is used to power the computing device 200, such as a battery or a power supply unit. The processing system 210 is also connected to a clock system component 230 that controls a timer for use by the disclosed embodiments.

The peripherals interface 216 may also communicate with an Input/Output (I/O) subsystem 240, which includes a display(s) controller 241 operative to control display(s) 242. In some embodiments the display(s) 242 is a touch-sensitive display system, and the display(s) controller 241 is further operative to process touch inputs on the touch sensitive display 242. The I/O subsystem 240 may also include a keypad(s) controller 243 operative to control keypad(s) 244 on the computing device 200. The I/O subsystem 240 also includes an optical sensor(s) controller 245 operative to control one or more optical sensor(s) 246. The optical sensor(s) may be part of other components, such as lenses, ring spacers, and lens barrels (not shown), that make up a camera or image scanner on the computing device 200. The components of computing device 200 may be interconnected using one or more buses, represented generically by the arrows of FIG. 2, and may be mounted on a motherboard (not shown) or some other appropriate configuration.

Computing device 200 may have additional input/output components (not shown). Additional input components may include, hut are not limited to, keyboards, buttons, switches, touch pads, cursor control devices, computer mice, stylus-receptive components, or other data entry devices. Additional output components may include, but are not limited to, computer monitors, buzzers, alarms, notification devices, lights, light emitting diodes, liquid crystal displays, visual display devices, or other data output devices.

FIG. 3 is a diagram of the hardware elements of an inspection assistance device according to embodiments of the disclosed subject matter. The inspection assistance device 20 includes the portable computer device 22 and headset 24, which can communicate with each other via cable 80 or over a wireless communication channel, such as Bluetooth™. The portable computer device 22 includes an input port 82, which is configured to be connected to a connector of the cable 80. The portable computer device 22 also includes a housing 84, a display screen 86, indicators 88, and input devices 90.

The headset 24 includes an audio output device 94 (e.g., speaker), an audio input device 96 (e.g., microphone), one or more straps 98, and padding 100. The padding of the audio input device 96 along with the straps 98 and padding 100 are configured to keep the headset 24 on an inspector's head during use.

The portable computer device 22 may be configured to run voice software, which supports efficient voice dialogs, speech recognition, noise cancellation, and language support. The portable computer device 22 translates textual instructions into audible commands, which are output through the audio output device 94. Also, the portable computer device 22 converts the inspector's speech received through the audio input device 96 into output data that is sent back to the site computer 14. In some embodiments, the portable computer device 22 may have an integrated imager that can scan and capture barcodes.

In some embodiments, the portable computer device 22 is a device like the computing device 200 described above complete with all of the hardware elements described for the computing device 200 above, including processors 211, interfaces 252 and 260, memory 213, storage 215 and the like. Additionally, the portable computer device 22 includes a speech module 118 and an inspection assistance program 120. The speech module 118 and the inspection assistance program 120 may be configured in software and/or firmware and stored in the memory 213 and/or storage 215 and/or may be configured in hardware within the portable computer device 22.

The external port 260 of the portable computer device 22 may include the input port 82 as shown in FIG. 3 for coupling with the cable 80. Alternatively, portable computer device 22 may include RF circuitry 252 for a short range wireless communication transceiver for wirelessly communicating with the headset 24. The portable computer device 22 also includes a transceiver or other suitable wired or wireless communication component for communicating with the site computer 14. The communication interfaces 252 and/or 260 allow the portable computer device 22 to receive inspection plans from the site computer 14 and provide inspection steps to the headset 24. When a step is performed by the inspector, the communication interfaces 252 and/or 260 receive inspection results from the headset 24 and communicate the results to the site computer 14.

The speech module 118 is configured to translate text to speech and to translate speech to text. For example, textual inspection steps may be translated into speech form that the inspector can understand. The speech module 118 may use other methods for conversion to speech, such as processing digital audio signals and converting to analog speech. The speech module 118 may include a text-to-speech (TTS) module.

The inspection assistance program 120 performs many tasks, including but not limited to: enabling the inspector to sign on, determining if the inspector is authorized for the inspection and/or inspection plan, accessing profile of the inspector on the portable computer device 22, receiving a first (or next) inspection plan automatically or in response to input received at the portable computer device 22 by the operator, delivering audible commands to the inspector regarding the steps of the plan to perform, receiving audible, vocal, or spoken responses from the inspector, determining if sections of the inspection plan should be skipped, determining and/or marking sections of the inspection plan as not applicable, requiring performance of mandatory sections of the inspection plan, determining if the inspection is complete, prompting for parts information and/or numbers, and enabling the inspector to review inspection results before submission.

The setup of the voice-directed inspection system 10 involves a variety of steps. When a business asset 32-1 arrives at a site 18-1, the host computer 12 sends one or more exemplary inspection plans to the site computer 14-1. For example, an inspection plan may include a specific order of steps to be taken by an inspector during an inspection of the business asset 32-1. Each exemplary inspection plan may include a number of sections, wherein each section includes a list of steps to be performed in the inspection. The sections and steps may be arranged to maximize efficiency and accuracy. In some embodiments, the sections of the inspection plan may be aligned with physical parts of the business asset 32-1. For example, in the case of a business asset 32-1 that is a tractor-trailer, the inspection plan may naturally be divided into sections that cover the cab and sections that cover the trailer. In still other embodiments, the sections of the inspection plan may be divided so as to create discrete sections of the plan that would permit multiple inspectors to work on the business asset 32-1 in a manner that would not overlap or interfere with each other. For example, in the case of a business asset 32-1 that is a jet engine, the inspection plan may be divided into sections that allow one inspector to work on elements at the front of the engine and another inspector to work on elements at the rear of the engine. In further embodiments, the sections of the inspection plan may be divided across component systems of the business asset 32-1. For example, an automobile inspection plan may include many sections representing many distinct systems of the automobile, such as a section related to the lights of the automobile, a section related to the braking system of the automobile, a section related to the steering system, a section related to emissions components, among other sections.

The site computer 14 is configured to receive the one or more exemplary inspection plans and store the inspection plans. The site computer 14 may include an inspection plan editor 40 described further below, which may be configured to translate the inspection steps received from the host computer 12 into voice instructions. The inspection plan editor may also be configured to enable an operator to modify the voice instructions as needed. For example, when new parts are added to a list of parts to be inspected, the operator may insert additional steps in the instructions, which are translated into additional voice instructions. In some embodiments, the voice-directed inspection system 10 may include a regional server that is configured to modify inspections for each of a plurality of inspection sites 18 within a particular region.

Thus, the voice-directed inspection system 10 is set up when the exemplary inspection plans are downloaded and modified, as needed, for each inspection site 18. After set up, the site computer 14 at each inspection site 18 is configured to communicate the appropriate inspection plan to the respective inspection assistance devices 20. With the inspection plan loaded in the inspection assistance device 20, the inspector may begin the inspection. The voice-directed inspection involves providing audible prompts to the inspector to perform certain steps (e.g., measuring, testing, or observing characteristics of various parts or components) and receiving audible responses from the inspector.

FIG. 4 is a block diagram of an inspection plan editor according to embodiments of the disclosed subject matter. The inspection plan editor 40 may be implemented in hardware, software, firmware, or any combinations thereof. The inspection plan editor 40 may be configured as software and/or firmware stored on a non-transitory computer-readable medium on memory 213 and/or storage 215 of a site computer 14. In some embodiments, the inspection plan editor 40 may be implemented in software or firmware that is stored on a non-transitory computer-readable medium on the memory 213 and/or storage 215 or combinations thereof and that is executable by a suitable instruction execution system, such as the processor 211 of a site computer 14. In other embodiments, if the inspection plan editor is implemented in hardware, then the inspection plan editor 40 may be implemented using discrete logic circuitry, an application specific integrated circuit (ASIC), a programmable gate array (PGA), a field programmable gate array (FPGA), or any combinations thereof.

The inspection plan editor 40 may comprise an ordered listing of executable instructions for implementing logical functions. The inspection plan editor 40 can be embodied in any non-transitory computer-readable medium for use by an instruction execution system or device, such as a computer-based system, processor-controlled system, etc. In the context of the present disclosure, a non-transitory computer-readable medium can be any medium that can contain, store, communicate, propagate, or transport programs for execution by the instruction execution system or device.

It should be understood that the routines, steps, processes, or operations described herein with respect to the inspection plan editor 40 may represent any module or code sequence that can be implemented in software or firmware. In this regard, these modules and code sequences can include commands or instructions for executing the specific logical routines, steps, processes, or operations within physical components. It should further be understood that two or more of the routines, steps, processes, and/or operations described herein may be executed substantially simultaneously or in a different order than explicitly described, as would be understood by one of ordinary skill in the art.

The inspection plan editor 40 allows an operator, such as an administrator of one or more inspection sites 18, to enter a number of parameters related to an inspection plan. The inspection plan editor 40 enables the operator to create a new inspection plan and/or to edit an existing inspection plan. After the operator has gone through the process of creating and/or modifying the inspection plan, the inspection plan can then be communicated to the inspection assistance device 20 for directing the inspector through an inspection. The created and/or modified inspection plan can be used by one or more inspectors as needed.

The inspection plan editor 40 may utilize a text-to-speech (ITS) unit 42 to translate inspection instructions from textual form to voice. Also, the inspection plan editor 40 may utilize a graphics unit 44 in coordination with a graphical user interface (GUI) of the input/output subsystem 240 of the site computer 14 to graphically display the textual inspection instructions in order to simplify the user experience.

The inspection instructions include various parameters that can be configured by the operator. The parameters for defining the inspection instructions can be stored in parameter tables 46 of the inspection plan editor 40. The inspection plan editor 40 allows the operator to select, enter, and/or edit the parameters using a selecting/entering/editing unit 48. For example, the operator may select/enter/edit a textual prompt that will be provided in speech form to the inspector at the beginning of the inspection. The operator may also select, enter, and/or edit a TTS prompt that the inspector will hear when the inspector requests for help.

Furthermore, the selecting/entering/editing unit 48 of the inspection plan editor 40 allows the operator to select, enter, and/or edit a limit representing a maximum number of choices to be provided in a list. The inspection plan editor 40 may define a unique identifier of the inspector's choice that is reported back to the host computer 12. For numerical entry, the operator can define the minimum and maximum acceptable values for various observable parameters, as well as the minimum and maximum digits allowed.

The user can also choose whether or not the inspector's choice receives a confirmation for various situations. The selecting/entering/editing unit 48 also allows the operator to select, enter, and/or edit the type of confirmation provided, if applicable.

The selecting/entering/editing unit 48 of the inspection plan editor 40 also enables the operator to choose whether or not a display will be used in parallel with the voice instructions. Also, the operator may select, enter, and/or edit what images will be displayed on the portable computer device 22 for different situations.

In addition, the inspection plan editor 40 allows the operator to select, enter, and/or edit conditional actions, if needed. For example, if the inspector encounters a first condition, the inspection plan editor 40 can provide follow-up actions as defined by the operator.

Note, throughout this disclosure, while the user interacting with the site computer 14 is generally referred to as the operator and the user interacting with the inspection assistance device 20 is generally referred to as the inspector, it should be understood that the same user could be acting in both roles in certain embodiments.

The inspection plan editor 40 also allows the user to choose whether the inspector may utilize a scanner to enter values (e.g., alphanumeric entries). Also, voice input may be defined for entering times and dates.

The inspection plan editor 40 further includes a speech recognition unit 52. For words and phrases that inspectors use repeatedly, such as numbers and letters, the speech recognition unit 52 relies on saved voice templates 54 that inspectors train when beginning to use the voice system. As inspectors continue to use the words in their responses with the varying inflections of normal human speech, the speech recognition unit 52 automatically adapts the voice templates 54. Over time, the adaptation of an inspector's voice templates 54 improves the performance of the speech recognition unit 52.

The speech recognition unit 52 can also recognize voice selections from long item lists. Voice software running on the inspection assistance device 20 uses a speaker-independent recognition system based on phonemes (word parts) to create the voice templates 54. The headsets 24 may use the voice software to recognize speech and account for changes in speaking patterns over time and in different environments in order to improve voice recognition and system performance.

At times, an inspector may need to add free-form recorded audio when selections in the inspection plan are not sufficient to encompass every possibility. In this case, a transcription unit 56 of the inspection plan editor 40 can be used to recognize and automatically convert voice to text. However, since automated transcription may not always be correct, inspectors can review the text and correct it as needed after the inspection is complete. An inspection checking unit 58 of the inspection plan editor 40 enables the inspectors to review the inspection results.

According to some embodiments, one or more inspection plans may be created and/or modified at the host computer 12, at an inspection site 18, or at another location in communication with the network 16. Once the inspection plans are complete, they may be transmitted to one or more of the site computers 14 within the voice-directed inspection system 10 to allow the respective inspection sites 18 to benefit from the new or modified inspection plans. The inspection plans can then be stored in the memory 213 and/or storage 215 of the various site computers 14.

In some embodiments, the host computer 12 may communicate with the site computers 14 to provide instructions regarding which steps of the inspection plan are to be performed. In this respect, each inspection plan may be a comprehensive plan including all possible inspection steps. The host computer 12 can then select a subset of steps from the comprehensive plan. This allows changes to be made in an efficient manner without relying on each inspector's ability to make appropriate modifications. However, if needed, the inspection plans can be modified at each inspection site 18 to account for the particular features of that inspection site 18.

When the memory 213 and/or storage 215 of the site computer 14 is updated with the new and/or modified inspection plan(s), the site computer 14 can transmit the plan to the inspection assistance device(s) 20 according to an inspection schedule. As the inspector performs the steps defined in the inspection plan, the results of each step are transmitted back to the site computer 14 and stored in the memory 213 and/or storage 215 of the site computer 14 with the inspection plan editor 40. After the inspection is complete and the inspector checks the inspection results, the stored inspection results can be transmitted from the site computer 14 to the host computer 12. Transmission of the network 16 may include Internet encryption, such as secure sockets layer (SSL) encryption.

The inspection checking unit 50 is used when an inspector finishes an inspection. The inspector can view the results using the GUI on the site computer 14. When free-form speech is entered by the inspector using the transcription unit 56, the transcript can be viewed and edited as needed. The inspection checking unit 58 may also be configured to allow viewing of inspection assignments, inspection assistance device operators, and other system information. With inspector confirmation, the inspection checking unit 58 enables the processor 211 to submit the completed data to the host computer 12 via the communication interfaces 252 and/or 260.

The inspection checking unit 58 provides users with the ability to view information about each inspection step on mobile devices or PCs running supported browsers. Also, the portable computer device 22 may be configured to serve web pages to browsers on the same local area network (LAN) as the site computer 14.

For certain business assets 32, the inspection plans can be very large and involve many, many steps. For these types of inspections, it is often necessary to have more than one inspector work together to complete the inspection in a reasonable amount of time. By splitting up the steps of a given inspection plan into sections according to embodiments of the present disclosure, it is possible to allow multiple inspectors to work on the same business asset 32 in parallel. This would increase overall efficiency by creating a more continuous and steady flow of work for the inspectors and by allowing multiple inspectors to help complete the steps of an inspection plan. By splitting up or sectioning inspection plans, it is possible to employ any inspector who is available, even for a small amount of time, to help complete open work items. Aside from general efficiency, the sectioning of the inspection plan can be used to train new inspectors and to allocate inspectors with specialized skills.

In most traditional voice-directed inspection systems, there is a notion of an assignment. An assignment links a business asset and an inspection plan for the asset to a particular inspector. In most traditional voice-directed inspection systems, once an assignment is made, i.e. once a business asset and plan have been assigned to an inspector, only that inspector can complete the work. A multiple inspector voice-directed inspection system, with sectioned inspection plans, however, includes the ability to allow more than one inspector to work on a business asset at a time. Such a system also includes rules and features designed to determine when inspectors should be able to login and get assignments for the same asset concurrently. The multiple inspector voice-directed inspection system also allows multiple inspectors to work on a given inspection plan, regardless of whether or not it has been started by another inspector, as long as there is still open work items to complete, i.e. allowing multiple inspector identifiers to be associated to the same inspection plan and asset. A multiple inspector voice-directed inspection system also supports the ability for inspectors to specifically request sections of an inspection plan for a business asset.

FIGS. 5A and 5B are communication flow diagrams for the multiple inspector voice-directed inspection system according to embodiments of the disclosed subject matter. In FIG. 5A, the host computer 12 sends an inspection plan for asset 32-1 to the site computer 14-1 (Step 5A-1). The inspection assistance device 20-1 requests an assignment for asset 32-1 in Step 5A-2, and inspection assistance device 20-N does the same in Step 5A-3. The site computer 14-1 determines if there are multiple unfinished sections of the inspection plan for the asset 32-1 (Step 5A-4). If there are unfinished sections, then the site computer 14-1 sends a section A of the inspection plan for asset 32-1 to inspection assistance device 20-1 (Step 5A-5) and sends a section B of the inspection plan for asset 32-1 to inspection assistance device 20-N(Step 5A-6).

In some embodiments, sections A and B of the inspection plan are non-overlapping. In other embodiments, the sections A and B of the inspection plan are prioritized according to features of the asset 32-1 that are more important to inspect.

Inspection assistance device 20-1 then provides audible commands for section A of the inspection plan for asset 32-1 (Step 5A-7), and receives audible, vocal, or spoken updates from the inspector on the completion of section A of the inspection plan for asset 32-1 (Step 5A-9). Similarly, inspection assistance device 20-N then provides audible commands for section B of the inspection plan for asset 32-1 (Step 5A-8), and receives audible, vocal, or spoken updates from the inspector on the completion of section B of the inspection plan for asset 32-1 (Step 5A-10). Inspection assistance device 20-1 then sends the updates for section A of the inspection plan for asset 32-1 to the site computer 14-1 (Step 5A-11), and inspection assistance device 20-N does the same for the updates for section B of the inspection plan (Step 5A-12). In some embodiments, the updates for sections A and B of the inspection plan are sent by inspection assistance devices 20-1 and 20-N respectively as the individual steps of each section of the inspection plan are complete. In alternative embodiments, the updates may be batched and sent by the inspection assistance devices 20. The site computer 14-1 then sends the updates to the entire inspection plan (both sections A and B) to the host computer 12.

FIG. 5B is similar to FIG. 5A described above, with the only exception being that the inspection plan in FIG. 5B is created on the site computer 14-1 (Step 5B-1), whereas it is received from the host computer 12 in FIG. 5A (Step 5A-1).

FIG. 6 is a flow chart for an inspection assistance device according to embodiments of the disclosed subject matter. The process starts (Step 600) and continues with the inspection assistance device 20 sending a request to the site computer 14 for an assignment for a business asset 32 (Step 602). As discussed, in some embodiments, the request may specify a specific section of an inspection plan for the asset 32. The inspection assistance device 20 then receives a section of the inspection plan for the asset 32 (Step 604). The inspection assistance device 20 then provides audible commands for the section of the inspection plan that was received (Step 606). The inspection assistance device 20 receives audible, vocal, or spoken updates on the completion of the section of the inspection plan that was received (Step 608). Lastly, the inspection assistance device 20 sends the updates on the completion of the section of the inspection plan for the business asset to the site computer 14 (Step 610), and the process ends (Step 612).

FIG. 7 is a flow chart for a site computer according to embodiments of the disclosed subject matter. The process starts (Step 700) and continues with the site computer 14 either receiving an inspection plan for a business asset 32 from the host computer 12 or creating an inspection plan for a business asset 32, depending upon the embodiment (Step 702). The site computer 14 then receives multiple requests for assignments for a business asset 32 from different inspection assistance devices 20 (Step 704). The site computer 14 then checks to see if there are multiple unfinished sections of the inspection plan (Step 706). If there are (Path 703), then the site computer 14 responds to the multiple requests for assignment by sending sections of the inspection plan to the respective inspection assistance devices 20 (Step 708).

In alternative embodiments, the site computer 14 sends the sections of the inspection plan to the inspection assistance devices 20 based on the order of importance in completing the inspection plan. In some embodiments, the site computer 14 sends the prioritized sections of the inspection plan to the inspection assistance devices 20 based on the order in which the site computer 14 received the request for an assignment from the inspection assistance devices 20. In other embodiments, the site computer 14 delivers the sections to the inspection assistance devices 20 associated with the inspectors most qualified to complete the work. In more embodiments, the site computer 14 delivers the sections to the inspection assistance devices 20 associated with inspectors who had previously worked on those respective sections of the inspection plan for that business asset 32.

The site computer 14 then receives updates on the completion of the sections of the inspection plan from each of the inspection assistance devices 20 (Step 710) and sends the update on the completion of the inspection plan to the host computer 12 (Step 712) and the process ends (Step 714).

If there are not multiple unfinished sections of the inspection plan (Step 706, Path 701), then the site computer 14 checks to see if there are any unfinished sections of the inspection plan (Step 716) and if there are (Path 707) sends that unfinished section to one of the requesting inspection assistance devices 20 (Step 718). The site computer 14 then receives the updates (Step 710), sends them to the host computer 12 (step 712), and the process ends (Step 714).

In some embodiments, the site computer 14 sends the remaining unfinished section of the inspection plan to the inspection assistance device 20 which first requested an assignment from the site computer 14. In other embodiments, the site computer 14 delivers the unfinished section to the inspection assistance device 20 associated with the inspector most qualified to complete the work. In more embodiments, the site computer 14 delivers the unfinished section to the inspection assistance device 20 associated with an inspector had previously worked on that section or other sections of the inspection plan for that business asset 32.

If there are no unfinished sections of the inspection plan (Step 716, Path 705), then the site computer 14 indicates that there are no inspection plans for the asset 32 (Step 720) and the process ends (Step 714).

The disclosed subject matter may be embodied as devices, systems, methods, and/or computer program products. Accordingly, some or all of the disclosed subject matter may be embodied in hardware and/or in software (including firmware, resident software, microcode, state machines, gate arrays, etc.). Furthermore, the disclosed subject matter may take the form of a computer program product on a computer-usable or computer-readable storage medium having computer-usable or computer-readable program code embodied in the medium for use by or on conjunction with an instruction execution system. In the context of this document, a computer-usable or computer-readable medium may be any medium that can contain, store, communicate, propagate, or transport the program for use by or in connection with the instruction execution system, apparatus, or device.

The computer-usable or computer-readable medium may be for example, but not limited to, an electronic, magnet, optical, electromagnetic, infrared, or semiconductor system, apparatus, device or propagation medium. By way of example, and not limitation, computer-readable media may comprise computer storage media and communication media.

Computer storage media includes volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer-readable instructions, data structures, program modules, or other data. Computer storage media includes, but is not limited to, Random Access Memory (RAM), Read-Only Memory (ROM), Electrically Erasable Programmable Read-Only Memory (EEPROM), flash memory or other memory technology, compact disc read-only memory (CD-ROM), digital versatile disks (DVD), or other optical storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to store the desired information and may be accessed by an instruction execution system. Note that the computer-usable or computer-readable medium can be paper or other suitable medium upon which the program is printed, as the program can be electronically captured via, for instance, optical scanning of the paper or other suitable medium, then compiled, interpreted, or otherwise processed in a suitable manner, if necessary, and then stored in a computer memory.

To supplement the present disclosure, this application incorporates entirely by reference the following commonly assigned patents, patent application publications, and patent applications:

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In the specification and/or figures, typical embodiments of the invention have been disclosed. The present invention is not limited to such exemplary embodiments. The use of the term “and/or” includes any and all combinations of one or more of the associated listed items. The figures are schematic representations and so are not necessarily drawn to scale. Unless otherwise noted, specific terms have been used in a generic and descriptive sense and not for purposes of limitation. 

1-20. (canceled)
 21. A method for voice-directed inspection comprising: receiving an inspection plan for performing an inspection of an asset from a host computer, wherein the inspection plan is divided into multiple sections; receiving a first request from a first inspection assistance device via a first headset; receiving a second request from a second inspection assistance device via a second headset; in response to receiving the first request and the second request, determining if there are multiple unfinished sections of the inspection plan for the asset, wherein, in determining if there are multiple unfinished sections of the inspection plan for the asset, the method further comprises: identifying unfinished sections of the inspection plan; and determining that the unfinished sections of the inspection plan do not interfere with one another; translating textual instructions corresponding to inspection steps of the inspection plan, received from the host computer, into digital audio signals; converting the audio signals into a plurality of analog speech instructions; transmitting, via a first speaker of the first headset, a first analog speech instruction corresponding to a first unfinished section of the inspection plan for the asset to the first inspection assistance device and transmitting, via a second speaker of the second headset, a second analog speech instruction corresponding to a second unfinished section of the inspection plan for the asset to the second inspection assistance device; receiving a first audible update on the first unfinished section of the inspection plan from the first inspection assistance device via the first headset and receiving a second audible update on the second unfinished section of the inspection plan from the second inspection assistance device via the second headset; sending the first and second audible updates to the host computer; and in response to determining that there are no unfinished sections of the inspection plan for the asset, providing, via a voice command, an indication to the first inspection assistance device and the second inspection assistance device that there are no unfinished sections of the inspection plan for the asset.
 22. The method of claim 21, wherein, when determining that the unfinished sections of the inspection plan do not interfere with one another, the method further comprises: determining that the unfinished sections of the inspection plan pertain to physically distinct parts of the asset.
 23. The method of claim 21, further comprising: associating more than one identifier to the inspection plan for the asset.
 24. The method of claim 21, wherein at least one of the first request or the second request comprises a request for any unfinished section of the inspection plan.
 25. The method of claim 21, wherein at least one of the first request or the second request comprises a request for a specific unfinished section of the inspection plan.
 26. The method of claim 21, wherein the first unfinished section and the second unfinished section are non-overlapping.
 27. The method of claim 21, wherein the first unfinished section and the second unfinished section are prioritized according to features of the asset.
 28. A site computer of a voice-directed inspection system comprising a memory and a processor communicatively coupled to the memory, the processor is configured to: receive an inspection plan for performing an inspection of an asset from a host computer, wherein the inspection plan is divided into multiple sections; receive a first request from a first inspection assistance device via a first headset; receive a second request from a second inspection assistance device via a second headset; in response to receiving the first request and the second request, determine if there are multiple unfinished sections of the inspection plan for the asset, wherein, in determining if there are multiple unfinished sections of the inspection plan for the asset, the processor is configured to: identify unfinished sections of the inspection plan; and determine that the unfinished sections of the inspection plan do not interfere with one another; translate textual instructions corresponding to inspection steps of the inspection plan, received from the host computer, into digital audio signals; convert the audio signals into a plurality of analog speech instructions; transmit, via a first speaker of the first headset, a first analog speech instruction corresponding to a first unfinished section of the inspection plan for the asset to the first inspection assistance device and transmit, via a second speaker of the second headset, a second analog speech instruction corresponding to a second unfinished section of the inspection plan for the asset to the second inspection assistance device; receive a first audible update on the first unfinished section of the inspection plan from the first inspection assistance device via the first headset and receive a second audible update on the second unfinished section of the inspection plan from the second inspection assistance device via the second headset; send the first and second audible updates to the host computer; and in response to determining that there are no unfinished sections of the inspection plan for the asset, provide, via a voice command, an indication to the first inspection assistance device and the second inspection assistance device that there are no unfinished sections of the inspection plan for the asset.
 29. The site computer of claim 28, wherein, when determining that the unfinished sections of the inspection plan do not interfere with one another, the processor is configured to: determine that the unfinished sections of the inspection plan pertain to physically distinct parts of the asset.
 30. The site computer of claim 28, wherein the processor is configured to: associate more than one identifier to the inspection plan for the asset.
 31. The site computer of claim 28, wherein at least one of the first request or the second request comprises a request for any unfinished section of the inspection plan.
 32. The site computer of claim 28, wherein at least one of the first request or the second request comprises a request for a specific unfinished section of the inspection plan.
 33. The site computer of claim 28, wherein the first unfinished section and the second unfinished section are non-overlapping.
 34. The site computer of claim 28, wherein the first unfinished section and the second unfinished section are prioritized according to features of the asset.
 35. A non-transient computer-readable medium containing program instructions for causing a computer to perform a method for voice-directed inspection comprising: receiving an inspection plan for performing an inspection of an asset from a host computer, wherein the inspection plan is divided into multiple sections; receiving a first request from a first inspection assistance device via a first headset; receiving a second request from a second inspection assistance device via a second headset; in response to receiving the first request and the second request, determining if there are multiple unfinished sections of the inspection plan for the asset, wherein, in determining if there are multiple unfinished sections of the inspection plan for the asset, the program instructions for causing the computer to perform the method for voice-directed inspection further comprises: identifying unfinished sections of the inspection plan; and determining that the unfinished sections of the inspection plan do not interfere with one another; translating textual instructions corresponding to inspection steps of the inspection plan, received from the host computer, into digital audio signals; converting the audio signals into a plurality of analog speech instructions; transmitting, via a first speaker of the first headset, a first analog speech instruction corresponding to a first unfinished section of the inspection plan for the asset to the first inspection assistance device, and transmitting, via a second speaker of the second headset, a second analog speech instruction corresponding to a second unfinished section of the inspection plan for the asset to the second inspection assistance device; receiving a first audible update on the first unfinished section of the inspection plan from the first inspection assistance device via the first headset and receiving a second audible update on the second unfinished section of the inspection plan from the second inspection assistance device via the second headset; sending the first and second audible updates to the host computer; and in response to determining that there are no unfinished sections of the inspection plan for the asset, providing, via a voice command, an indication to the first inspection assistance device and the second inspection assistance device that there are no unfinished sections of the inspection plan for the asset.
 36. The non-transient computer-readable medium of claim 35, wherein, when determining that the unfinished sections of the inspection plan do not interfere with one another, the program instructions for causing the computer to perform the method for voice-directed inspection further comprises: determining that the unfinished sections of the inspection plan pertain to physically distinct parts of the asset.
 37. The non-transient computer-readable medium of claim 35, wherein the program instructions for causing the computer to perform the method for voice-directed inspection further comprises: associating more than one identifier to the inspection plan for the asset.
 38. The non-transient computer-readable medium of claim 35, wherein at least one of the first request or the second request comprises a request for any unfinished section of the inspection plan.
 39. The non-transient computer-readable medium of claim 35, wherein at least one of the first request or the second request comprises a request for a specific unfinished section of the inspection plan.
 40. The non-transient computer-readable medium of claim 35, wherein the first unfinished section and the second unfinished section are non-overlapping. 